Comparative Evaluation of ELISA and Luminex Panel Reactive Antibody Assays for HLA Alloantibody Screening

Seonkyung Jung; Eun-Jee Oh; Chul-Woo Yang; Woong-Shick Ahn; Yonggoo Kim; Yeon-Joon Park; Kyungja Han

doi:10.3343/kjlm.2009.29.5.473

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Jung, Oh, Yang, Ahn, Kim, Park, and Han: Comparative Evaluation of ELISA and Luminex Panel Reactive Antibody Assays for HLA Alloantibody Screening

Original Article

Korean J Leg Med 2009;29(5):473-480.

Published online: 14 January 2009

DOI: https://doi.org/10.3343/kjlm.2009.29.5.473

Comparative Evaluation of ELISA and Luminex Panel Reactive Antibody Assays for HLA Alloantibody Screening

Seonkyung Jung, M.D.¹, Eun-Jee Oh, M.D.¹, Chul-Woo Yang, M.D.², Woong-Shick Ahn, M.D.³, Yonggoo Kim, M.D.¹, Yeon-Joon Park, M.D.¹, Kyungja Han, M.D.¹

¹Departments of Laboratory Medicine, Seoul, Korea

²Internal Medicine, and Obstetrics and Gynecology, Seoul, Korea

³The Catholic University of Korea, Seoul, Korea

Corresponding author: Eun-Jee Oh, M.D. Department of Laboratory Medicine, Seoul St. Mary's Hospital, 505 Banpo-dong, Seocho-gu, Seoul 137-701, Korea Tel: +82-2-2258-1641, Fax: +82-2-2258-1719 E-mail: ejoh@catholic.ac.kr

^∗ This study was supported by the Catholic Medical Center Research Foundation made in the program year of 2007.

Revised 20 July 200924 September 2009 Accepted 30 September 2009

This is an Open Access article distributed under the terms of the Creative Commons Attribution Non-Commercial License (http://creativecommons.org/licenses/by-nc/3.0/) which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.

Abstract

Background:

For the detection of HLA antibodies, solid-phase tests using purified HLA antigens are increasingly used. In this study, we analyzed the panel reactive antibody (PRA) test results using ELISA and Luminex methods, and the results were compared with those of crossmatch test.

Methods:

A total of 111 sera including 90 sera from kidney transplanted patients were tested. ELISA-PRA was performed using Lambda Antigen Tray Class I and II Mixed kits (One Lambda Inc., USA) and additional test was performed to identify HLA specificities. Luminex-PRA tests were performed using LABScreen Mixed kits (One Lambda Inc., USA) and LIFECODES LifeScreen Deluxe kits (Tepnel Co., USA).

Results:

The positive rates of PRA were higher in Tepnel (P=0.006) and One Lambda Luminex (P<0.001) methods than ELISA, without significant difference between two Luminex methods (P= 0.087). The overall concordance rate among the three PRA tests was 62.2% (69/111). The positive and negative predictive values of PRA tests for the flow cytometric crossmatch were 33.3-45.7% and 85.7-89.5%, respectively. Of the two Luminex methods, One Lambda showed higher positive rate than Tepnel for the detection of class I antibodies. The sensitivity of pretransplant PRA for the detection of posttransplant acute rejection episodes was higher in Luminex (P=0.007 for Tepnel, P=0.003 for One lambda) than ELISA method.

Conclusions:

Different methods used to detect HLA antibodies showed discrepant results. As the Luminex method was more sensitive than ELISA for the detection of HLA antibodies, it can be used as a routine test in the transplantation laboratory.

Keywords: Panel reactive antibodies, HLA antibodies, Luminex-PRA, ELISA-PRA

REFERENCES

1.Oh EJ., Park YJ., Kim JY., Yang CW., Kim DG., Moon IS. Detection of donor specific anti-HLA antibodies using antibody monitoring system. J Korean Soc Transplant. 2006. 20:63–8. (오은지, 박연준, 김진영,양철우, 김동구, 문인성. Antibody Monitoring System 을 이용한 공여자특이 HLA 항체검출. 대한이식학회지 2006;20:63-8.).

2.Ki CS., Yang YS., Kim DW. Comparison of complement-dependent cytotoxicity, enzyme-linked immunosorbent assay and flow cytometric assay for the detection of HLA class I alloantibodies. Korean J Clin Pathol. 1998. 18:624–9. (기창석, 양윤선, 김대원 HLA Class I 동종항체 선별을 위한 보체의존림프구독성법, 효소면역측정법 및 유세포분석법에의한 Panel Reactive Antibody 검사법의비교. 대한임상병리학회지 1998;18:624-9.).

3.Oh EJ., Lee J., Yang CW., Moon IS., Park YJ., Han K. Comparison of anti-HLA detecting methods; cytotoxicity, flow cytometric crossmatch, multiple antigen-ELISA, single antigen-ELISA. J Korean Soc Transplant. 2008. 22:85–91. (오은지, 이제훈, 양철우, 문인성, 박연준, 한경자. 항-HLA 항체 검출을 위한 검사방법의 비교: Cytotoxicity, Flow Cytometric Crossmatch, Multiple Antigen-ELISA, and Single Antigen-ELISA. 대한이식학회지 2008;22:85-91.).

4.Oh EJ., Park YJ., Lee KY., Choi BS., Yang CW., Kim YS, et al. Analysis of pretransplant ELISA-Panel reactive antibody in kidney transplant patients. J Korean Soc Transplant. 2004. 18:134–9. (오은지, 박연준, 이교영, 최범순, 양철우, 김용수등. 신장이식환자에서이식전 ELISA-Panel Reactive Antibody 검사의분석. 대한이식학회지 2004;18:134-9.).

5.El-Awar N., Lee J., Terasaki PI. HLA antibody identification with single antigen beads compared to conventional methods. Hum Immunol. 2005. 66:989–97.

6.Colombo MB., Haworth SE., Poli F., Nocco A., Puglisi G., Innocente A, et al. Luminex technology for anti-HLA antibody screening: evaluation of performance and of impact on laboratory routine. Cytometry B Clin Cytom. 2007. 72:465–71.

7.Song SM., Park BT., Yang YS. Performance analysis of panel reactive antibody test by lambda antigen tray kit using enzyme-linked immunosorbent assay. Korean J Clin Pathol. 2000. 20:583–7. (송선미, 박병택, 양윤선. 효소면역측정법을이용한 Lambda Antigen Tray 키트의 Panel Reactive Antibody 검사유용성평가. 대한임상병리학회지 2000;20:583-7.).

8.Zachary AA., Delaney NL., Lucas DP., Leffell MS. Characterization of HLA class I specific antibodies by ELISA using solubilized antigen targets: I. Evaluation of the GTI QuikID assay and analysis of antibody patterns. Hum Immunol. 2001. 62:228–35.

9.Remuzzi G., Lesti M., Gotti E., Ganeva M., Dimitrov BD., Ene-Iordache B, et al. Mycophenolate mofetil versus azathioprine for prevention of acute rejection in renal transplantation (MYSS): a randomised trial. Lancet. 2004. 364:503–12.

10.Hopkins KA., Zachary AA, et alASHI laboratory manual. Lenexa: American society for histocompatibility and immunogenetics. 1990. 195.

11.Muro M., Llorente S., Marin L., Moya-Quiles MR., Gonzalez-Soriano MJ., Prieto A, et al. Acute vascular rejection mediated by HLA antibodies in a cadaveric kidney recipient: discrepancies between Flow-PRA, ELISA and CDC vs luminex screening. Nephrol Dial Transplant. 2005. 20:223–6.

12.Whang DH., Yang YS., Hong HK. Allele and haplotype frequencies of human leukocyte antigen-A, -B, and -DR loci in Koreans: DNA typing of 1,500 cord blood units. Korean J Lab Med. 2008. 28:465–74. (황동희, 양윤선, 홍혜경. 한국인에서 Human Leukocyte Antigen-A, -B, -DR 대립유전자와일배체형빈도: 제대혈 1,500 단위의 DNA 형별검사. 대한진단검사의학회지 2008;28:465-74.).

13.Hwang SH., Oh HB., Yang JH., Kwon OJ., Shin ES. Distribution of HLA-A, B, C allele and haplotype frequencies in Koreans. Korean J Lab Med. 2004. 24:396–404. (황상현, 오흥범, 양진혁, 권오중, 신은순. 한 국인의 HLA-A, -B, -C 대립유전자와일배체형분포. 대한진단검사의학회지 2004;24:396-404.).

14.Lee PC., Ozawa M., Hung CJ., Lin YJ., Chang SS., Chou TC. Reappraisal of HLA antibody analysis and crossmatching in kidney transplantation. Transplant Proc. 2009. 41:95–8.

15.Amico P., Hönger G., Mayr M., Steiger J., Hopfer H., Schaub S. Clinical relevance of pretransplant donor-specific HLA antibodies detected by single-antigen flow-beads. Transplantation. 2009. 87:1681–8.

Table 1.

Positive rate of panel reactive antibody tests in 111 sera

Antibody specificities	% (N of positive cases)
Antibody specificities	ELISA	Tepnel-Luminex	One Lambda-Luminex
Class I and/or II	59.5% (66)	76.6% (85)	85.6% (95)
Class I	52.3% (58)	64.9% (72)	84.7% (94)
Class II	31.5% (35)	62.2% (69)	55.9% (62)

^∗ For Class I and/or II, ELISA vs Tepnel, P=0.006; ELISA vs One Lambda, P<0.001; Tepnel vs One Lambda, P=0.087. For Class I, ELISA vs Tepnel, P=0.057; ELISA vs One Lambda, P<0.001; Tepnel vs One Lambda, P=0.001. For Class II, ELISA vs Tepnel, P<0.001, ELISA vs One Lambda, P<0.001.

Table 2.

Comparison between crossmatch and PRA screening results in 68 sera

Crossmatch	Positive N (%)
Crossmatch	ELISA-PRA	Tepnel-Luminex-PRA	One Lambda-Luminex-PRA
CDCXM(+)/FCXM(+) (N=12)	12 (100)	12 (100)	11 (91.7)
CDCXM(+)/FCXM(-) (N=1)	0 (0)	0 (0)	1 (100)
CDCXM(-)/FCXM(+) (N=8)	4 (50.0)	6 (75.0)	7 (87.5)
CDCXM(-)/FCXM(-) (N=47)	19 (40.4)	31 (66.0)	35 (74.5)

Abbreviations: CDCXM, complement dependent cytotoxicity crossmatch; FCXM, flowcytometric crossmatch; +, positive; -, negative.

Table 3.

Concordance rates of the results of three PRA methods in 111 sera

Antibody specificities	ELISA, Tepnel-Luminex, and One Lambda-Luminex	ELISA and Tepnel-Luminex	ELISA and One Lambda-Luminex	Tepnel-Luminex and One Lambda-Luminex
Class I and/or II	62.2%	77.5%	68.5%	77.5%
Class I	55.9%	78.4%	62.2%	71.2%
Class II	60.4%	64.0%	72.1%	84.7%

For class I, ‘ELISA and Tepnel’ vs ‘ELISA and One Lambda’, P=0.008.

For class II, ‘ELISA and Tepnel’ vs ‘ELISA and One Lambda’, P<0.001; ‘ELISA and One Lambda’, vs ‘Tepnel and One Lambda’, P=0.023.

Table 4.

Predictive value of PRA screening tests for CDC or flow cytometric crossmatch

PRA methods	For CDCXM		For FCXM
PRA methods	PPV	NPV	PPV	NPV
ELISA	34.3%	97.0%	45.7%	87.9%
	(12/35)	(32/33)	(16/35)	(29/33)
Tepnel-Luminex	24.5%	94.7%	36.7%	89.5%
	(12/49)	(18/19)	(18/49)	(17/19)
One Lambda-Luminex	22.2%	92.9%	33.3%	85.7%
	(12/54)	(13/14)	(18/54)	(12/14)

Abbreviations: CDCXM, complement dependent cytotoxicity crossmatch; FCXM, flowcytometric crossmatch; PPV, positive predictive value; NPV, negative predictive value.

Table 5.

Performance data of pre-transplant PRA screening tests for the detection of acute rejection episodes in 48 kidney transplanted patients

PRA methods	Sensitivity	Specificity	PPV	NPV
ELISA	31.8%	61.5%	41.2%	51.6%
Tepnel-Luminex	72.7%	38.5%	50.0%	62.5%
One Lambda-Luminex	77.3%	7.7%	41.5%	28.6%

Abbreviations: See Table 4.

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